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dc.contributor.authorGarcia Marti, Dolores 
dc.contributor.authorLacruz, Jesús Omar 
dc.contributor.authorBadini, Damiano
dc.contributor.authorDe Donno, Danilo 
dc.contributor.authorWidmer, Joerg 
dc.date.accessioned2021-10-13T13:58:17Z
dc.date.available2021-10-13T13:58:17Z
dc.date.issued2021-10-06
dc.identifier.urihttp://hdl.handle.net/20.500.12761/1528
dc.description.abstractMachine learning is a highly promising tool to design the physical layer of wireless communication systems, but the training usually requires an explicit model of the signal distortion as it undergoes transmission over a wireless channel. As data rates, number of MIMO streams and carrier frequencies increase to satisfy the demand for wireless capacity, it becomes difficult to design hardware with few imperfections and to model the imperfections that there are. New machine learning schemes for the physical layer do not require an explicit model but can implicitly learn the end-to-end link including channel characteristics and non-linearities of the system directly from the training data. In this paper, we present a novel neural network architecture that provides an explicit stochastic model for both SISO and MIMO channels, by learning the parameters of a Gaussian mixture distribution from real channel samples. We use this channel model in conjunction with an autoencoder to learn a suitable modulation scheme. We experimentally validate our proposed model in an FPGA-based millimeter-wave testbed for both SISO and MIMO channels, showing that it is able to reproduce the channel characteristics with good accuracy.es
dc.language.isoenges
dc.publisherElsevieres
dc.titleModel-free machine learning of wireless SISO/MIMO communicationses
dc.typejournal articlees
dc.journal.titleComputer Communicationses
dc.rights.accessRightsrestricted accesses
dc.identifier.doi10.1016/j.comcom.2021.09.033es
dc.description.refereedTRUEes
dc.description.statuspubes


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